Breaking the tropical convection “dead-lock”: Scale interactions of deep convection and tropical circulation Theme(s): Atmosphere and Climate, Atmospheric Physics, Climate, Meteorology Primary Supervisor: John Marsham Institution: School of Earth and Environment, University of Leeds
Responses of boreal ecosystems to climate change Theme(s): Aquatic/terrestrial/soil biogeochemistry, Atmospheric Physics, Climate, Ecosystem processes, dynamics and functioning Primary Supervisor: Manuel Gloor
Large-scale circulation patterns associated with European climate extremes Theme(s): Atmospheric Physics, Climate, Meteorology Primary Supervisor: Dr Ioana Colfescu
Holistic assessment of the impacts of an enhanced stratospheric aerosol layer Theme(s): Atmosphere and Climate, Atmospheric Physics, Chemistry of the Earth, Climate Primary Supervisor: Dr Graham Mann
Computationally efficient upper atmosphere chemistry schemes for a weather and climate model Theme(s): Atmosphere and Climate, Atmospheric Physics, Climate, Meteorology Primary Supervisor: Prof. Martyn Chipperfield <M.Chipperfield@leeds.ac.uk> Institution: University of Leeds (Earth and Environment)
Robust future climate projections for Europe Theme(s): Atmosphere and Climate, Atmospheric Physics, Climate, Meteorology Primary Supervisor: Dr Amanda Maycock Institution: University of Leeds (School of Earth and Environment)
The influence of large-scale circulation on the dispersal of gases from Northern Hemisphere sea oil and gas platforms Theme(s): Air Quality, Atmospheric Physics, Climate Primary Supervisor: Dr Ralph Burton
Variations in climate sensitivity and its role in climate projections Theme(s): Atmospheric Physics, Climate Primary Supervisor: Professor Piers Forster <p.m.forster@leeds.ac.uk> Institution: Priestley International Centre for Climate (Earth and Environment)
Non-CO2 effects of aviation on climate Theme(s): Atmosphere and Climate, Atmospheric Physics, Climate Primary Supervisor: Dr Alex Rap <a.rap@leeds.ac.uk> Institution: University of Leeds (School of Earth and Environment)
Quantifying the influence of meteoric smoke particles and fragments on stratospheric aerosol and chemistry Theme(s): Atmospheric Physics Primary Supervisor: Wuhu Feng